185
January 1969
NOTES
Anal.
in this paper were realized by the reactions in Scheme I. The key intermediate t o this scheme, 2-bromo-4,5-
(C*Hl,NnO) N. A glpc analysis indicated a, purity of 977,. A mixture of 46.4 g of the above nitrile, 350 ml of 237, ( w l w ) of NH8 in hleOH, and 5-10 g of Ra Ni under HP at, a n initial pressure of 57.2 kg/cmz was heated to 100' for 8 hr. Removal of t,he catalyst and fractionat'ion of the fikrate gave 36 g (76y0) of oil, bp 99-100" (0.3 mm), n z 5 , % 1.5046. .4nal. (C8H&;20) C, H, N. Preparation of Final Products. General Procedure.--h mixtLire of 3,'i-dichloroquinoline (Winthrop Laboratories) and 2 molar equiv of amine was stirred under S2 in an oil bath a t 150-160" for 4-10 hr. The product was taken up in dilute HC1 aud the pH was adjusted to ca. 7 v i t h concentrated SHIOH. The mixture was extracted twice Tvith Et& which was discarded. The aqiieous portion was made strongly basic with 35% XaOH solution and the oily product was extracted (EtzO). Removal of solvelit and unreacted amine was accomplished by heating under reduced pre'sure, finally at 100" (0.1mm). The aminoyuinolinea were isolated as the free bases or as salts (Table 11).
I11
Ta4BLE 11
Coinpd Salt 2a 21i3Poa 213 2c 2HCI. HzO
LIP, OC 272-275 deo 125.5-126.5 265-268
SCHEME I
Formula .inalgses CiaH2rClXa.2HaPOa N, C1 CITHprClNa N, CI C17H22ClN30.2HCl. H10 N , C1, HzO
I
ArNH?
C CH30 H 3 0 B ; N B x
Antimalarials Related to
2-Bromo-4,5-dimethoxy-N,N'-bis(diethyl-
I against Plasmodium cynamolgi in rhesus monkey Schmidt4 concluded that I shows considerable promise as a radical curative agent. This revived interest in the aminopyrocatecholj class of antimalarials prompted us to investigate structural modifications of the basic side chain. Schoenhofer's6 work demonstrated that the basic side chain must conform to the rigid structural features depicted by I. We decided to synthesize and evaluate piperazines and spiropiperazinium salts, related to I, ab radical departures from the already studied aminopyrocatechols, Chemistry.-Synthesis: of the modifications described
dimetho~yaniline,~ can be prepared by the brunination of 3,4dimethoxyacetanilide. Since this procedure did not appear to be capable of yielding substantial yuantit,ies of the desired material as the free base, several alternate routes were examined.8 The best technique found for the preparation of 2-bromo-4,Ei-dimethoxyaniline was the reduction of the corresponding nitro compound by the reducing system IZ'zHA-Raney Xi, after the procedure of Leggetter and Brown.g Yields of 85% of the desired arylamine, as the free base, were consistently obtained, even on large-scale reductions. Hydroxethylation of 2-brom0-4~5-dimethoxyaniline with ethylene oxide by the procedure of E'reifelder and Stone'" gave only the monoalkylated product. Extending the reaction to 3 days at 90" gave 90% of 11. Careful control of reaction conditions and stoichiometry was necessary to suppress the formation of polyethylene oxides, the presence of which made purification of I1 difficult. SOCl,lla or preferrably POClS1lhwas used to convert I1 to the nitrogen mustard 111. This compound (111)was obtained in S9yc yield as a nondistillable viscous oil. To circumvent the laborious purification procedure of 111 we attempted to synthesize a variation of I11 that was a solid at room temperature. Synthesis of 111 wherein chlorine was replaced by bromine, mesylate, tosylate, or brosylate did not yield a solid precursor to IV. Reaction of the appropriately substituted anilines with 111, according to the procedure of Davis and Ross12 gave modest yields of the S-phenylpiperazines listed in Table I. The m- and p-nitroanilines failed to react with 111. Treatment of bis(ch1oroethyl)-m-nitroanilirie
(1) This work was supported Ly the U. S. Army Medicinal Research and Development Command under Contract No. DA-49-193-MD-2900. This is Contribution No. 413 from t h e Army Research Program on Malaria. (2) Presented in part a t t h e symposium on T h e Resistant Malaria Problem before The Medicinal Chemistry Section, 153rd National Meeting of the American Chemical Society, Miami Beach, Fla., April 1967. ( 3 ) L. .J. Bruce-Chrvatt. T r a m . Roy. Sac. T r a p . M e d . Hug., 69, 105 (1965). (4) L. H. Schmidt, et al., Bull. World Health Organ., 34, 783 (1966). ( 5 ) TV. Scliulemann and \V. Kropp, U. S. Patent 1,757,394 (1930). (6) F. Schoentiofer, F I A T , Reo. Ger. Sci., PB-85033: 33 (1939-1946).
(7) J. L. Simonsen and 31. G . Rau, J . Chem. Sac., 782 (1918). (8) Direct bromination of 4-aminoveratrole gave intensely colored meterials which were difficult to purify. Catalytic hydrogenation of 4-bromo5-nitroveratrole were intolerably slow or under more drastic conditions complicated b y extensive loss of bromine accompanying reduction of t h e nitro group. (9) B. E. Leggetter and R. K. Brown, Can. J . Chem., 38, 2363 (1960). (10) M. Freifelder and G . R. Stone, J . O w . Chem.. 26, 1477 (1961). ( l l ) ( a ) W. E. H a n h y a n d H. N . Rydon, J . Chem. SOC.,513 (1947); (b) \\7. C. Ross, ibid., 183 (1949). (12) W.Davis and TV. C. Ross. ibid.. 2831 (194Y).
aminoethy1)aniline.
Piperazine Modifications's2
EUGENE L. STOGRYN Esso Research and Engineering Company, Governrnent Research Laboratory, Linden, iYew Jersey
07036
Received J u n e 20, 1968
It has recently been reported that 2-bromo-4,5dimet hoxy-S,S'-bis( diet hylaminoethyl) aniline (I) is effective against the exo-erythocytic stages of Plasmodium cathemerium in ca~iaries.~From an evaluation of
I